I have 6 strip of lights consisting of approx 100ft total.
1 strip = 16.5ft , 36w, 150 leds, 12v, 3a .. and can be connected to total of 20 strips end-to-end.
It will be controlled by an RF controller at one end to display patterns, etc and the controller will be powered independently. Each strip is connected to the next strip, and on each's end have an extension female power adapter to get more power of its own to be used to its fully lighting potential.
I have a 20a 12v power supply on hand which I'd like to use to power these, however, I like to know if I center that power supply at 50ft in middle and run the wires from center outwards 50ft to left and 50ft to right would that be sufficient? Wires would be 12guage electrical copper wire I have 200ft spool of that I don't use.
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Should I get another 20a 12v power supply, totalling two, and place one on each end so as not to drop the current load? I ask this because I was given a theory of seeing this as 100ft hose and the pressure would drop the more it is extended whereas the most pressure (light output) would be that nearest to the power supply. So by having one and both end they would push to each other and no current would drop. And each of the female adapter would be fed into the 12guage male that I would attach too this additional power.
Best Answer
You don't want to hook 20 strips end-to-end unless they're making the strips out of much stronger stuff than the ones I have. Passerby described the math to it. If you fed three strips from one end of one strip, I wold not be surprised if it burned up the PC traces.
I would run a parallel "bus" and feed strips from both ends. In Code electrical, 100' is about where voltage drop hits 3% and you want to bump to the next larger wire size. Keep in mind 3% voltage drop at 120V is a 30% voltage drop on 12V! Plug it into a voltage drop calculator and it will do the math. But the numbers get real scary real fast with 12V at 100'. I asked the calc to show me 12V at 3% voltage drop, and it recommend 3/0 wire (or preferably, 250kcmil aluminum, which is 1/2" diameter). The wire would be bigger than your whole LED strip!
Now over on diy.se, taking a fat-wire problem and solving it with the thinnest legal wire (14 AWG) is pretty much my "hat". Here we go:
One way to solve the long-distance voltage drop problem is to distribute the 12V power supplies along your 100' so you're carrying 120V/230V the long distance instead of 12V. When you double voltage you quarter losses, when you 10x voltage you 1/100x losses. 14 AWG wire would suffice! tips hat
This is how light-rail lines do it, they don't carry 600V from Long Beach to Pasadena, they carry 24,000 volts AC and have a 600V substation every 3-5 miles.